# Trouble with a Two's Complement Function

Trying to implement a function to return the two's complement of a string of bits. I've tried two varieties and get odd results.

Version 1 (does the inversion but not the "+1"): string twosComp(signed int number) {

``````string twosComp(signed int number) {

if ( number == 0 ) { return "1"; }
if ( number == 1 ) { return "0"; }

if ( number % 2 == 0 ) {
return twosComp(number / 2) + "1";
}
else {
return twosComp(number / 2) + "0";
}
}
``````

Version 2 (inverts and attempts "+1" but doesn't always get it right)

``````string twosComp(signed int number) {

bool bit = 0;
int size = 3; // not sure what to do about this, value could be -32768 to 32767
string twos;
number = ~abs(number) + 1;

for(int i = 0; i < size; i++) {

//Get right-most bit
bit = number & 1;
if(bit) {
twos += '1';
}
else {
twos += '0';
}

//Shift all bits right one place
number >>= 1;
}

return twos;
} // end twosComp
``````

I've been trying various iterations of both of these functions. I'm running out of steam on this. If anyone has a better option -- I'm VERY open to suggestions at this point.

• It's really not clear what your question is. Feb 11 '13 at 3:31
• If that's it, the answer is: `~x+1` Feb 11 '13 at 3:33
• I need to return the bit string. Feb 11 '13 at 3:34
• So convert it to a string. Feb 11 '13 at 3:35
• See my answer for doing both these things... Feb 11 '13 at 4:00

how about `(abs(number) ^ 0xffffffff) + 1`, and then turning that value into a string?

edit: also, why is `size = 3`? ints are 32 bits, usually

• I'm not really sure what it's for. It was in the example. I found it useless. Feb 11 '13 at 3:35
• @frankV it makes the function only return the last 3 bits of the 2s complement of the given number. the range you give is 16 bits Feb 11 '13 at 3:36
• if I give a different range it messes up the conversion. I tried "sizing" the string of the binary number produced by `abs(number);` but that gave me undesired results. Feb 11 '13 at 3:39
• according to the example I tried to work off of, `size` was supposed to be the size of the converted bit string. Feb 11 '13 at 3:46

The following code does what you want for a short (16 bit) int: note - I wrote this in C not C++...

``````char* twosComplement(signed int n) {
static char s;  // static so the variable persists after the call
unsigned int i;
int j;
i = (2<<16)-n; // definition of twos complement

for(j=0;j<16;j++){
s[15-j] = ((i&1)==0)?'0':'1'; // test lowest bit
printf("%c", s[15-j]);        // print for confirmation
i=i>>1;                       // right shift by one
}
printf("\n"); // just to make output look clean
s='\0';   // terminate the string
return s;
}

int main() {
printf("the string is %s\n", twosComplement(15)); // just an example
}
``````

For reference you can have a look at the below link for converting a integer to 2's compliment in C++ using bitset : http://2scomplimentcpp.blogspot.com.au/

``````#include <iostream>
#include <bitset>

using namespace std;

int disp_number()
{
int i = 0;
cout << "Enter Intiger : " ;
cin >> i;
cout << "decimal : " << std::dec << i << endl;
cout << "hex : " << std::hex << i << endl;
cout << "oct : " << std::oct << i << endl;
cout << "Binary : " << (bitset<16>)i << endl;
cout << "Inverse : " << bitset<16>(~i) << endl;
i = (0 <= i)?i:(-1)*i;
cout << "One's compliment : " << ~(bitset<16>)i << endl;
int d = ((bitset<16>)i).flip().to_ulong();
cout << "Two's compliment : " << bitset<16>(++d) << endl;
return 0;
}
``````

You can use to_string() method of bitset to convert the representation to a string.